富水区隧道渗流场解析解及合理支护参数

doi:10.3785/j.issn.1008-973X.2021.11.015

浙江大学学报(工学版)

2021, Vol. 55

Issue (11): 2142-2150 DOI: 10.3785/j.issn.1008-973X.2021.11.015

土木与建筑工程

富水区隧道渗流场解析解及合理支护参数

赵建平1(

),李建武1(

),毕林1,程贝贝2

1. 中南大学资源与安全工程学院，湖南长沙 410083
2. 三峡基地发展有限公司，湖北宜昌 443002

Analytical solution of seepage field and reasonable support parameters of tunnel in water rich area

Jian-ping ZHAO1(

),Jian-wu LI1(

),Lin Bi1,Bei-bei CHENG2

1. School of Resources and Safety Engineering, Central South University, Changsha 410083, China
2. Three Gorges Base Development Limited Company, Yichang 443002, China

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摘要：

以复势函数和地下水力学理论为基础，引入双极坐标描述等势线，推导由围岩、注浆圈和初期支护组成的富水地区隧道渗流场解析解，获得隧道注浆前后初期支护外水头的水头差公式. 通过与保角变换法、镜像法和数值模拟计算结果对比，验证所提解析方法的合理性. 通过研究隧道注浆圈、初期支护的渗流参数与初期支护外水头、渗水量及水头差的关系，提出隧道结构合理渗流参数的确定方法. 结果表明：减小初期支护渗透系数或增大初期支护厚度都可致渗水量减小且水头增大；水头差随初期支护渗透系数或厚度增大先增大后减小，当水头差处于峰值时，注浆圈能发挥较大的作用，初期支护外水头可以降至全水头的30%±6%.

关键词： 隧道工程; 复势函数; 双极坐标; 渗流场; 渗流参数

Abstract:

Based on the theory of complex potential function and groundwater hydraulics, the analytical solution of seepage field of tunnel in water rich area, which is composed of surrounding rock, grouting circle and initial support, was derived by introducing bipolar coordinate to describe equipotential line, and the formula of hydraulic head difference of hydraulic head around initial support before and after grouting was obtained. The rationality of the analytical method was verified, compared with conformal mapping method, image method and numerical simulation results. The determination method of reasonable seepage parameters of tunnel structure was proposed, by studying the relationship between the seepage parameters of grouting circle and initial support and the external hydraulic head, water inflow and hydraulic head difference of initial support. Results show that decreasing the permeability coefficient or increasing the thickness of the initial support can lead to the decrease of water inflow and the increase of hydraulic head. The hydraulic head difference first increases and then decreases with the increase of permeability coefficient or thickness of initial support. When the head difference is at the peak, the grouting circle can play a great role, and the external hydraulic head of the initial support can be reduced to 30%±6% of full hydraulic head.

Key words: tunnel engineering complex potential function bipolar coordinate seepage field seepage parameter

收稿日期: 2020-12-31 出版日期: 2021-11-05

CLC:

TU 45

基金资助: 国家自然科学基金青年基金资助项目(51104178)；湖南省重点研发计划资助项目(2015SK2086)

作者简介: 赵建平(1977—)，男，副教授，从事地下工程方面的教学和科研工作. orcid.org/0000-0001-5386-0758. E-mail: jpzcsu@csu.edu.cn

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引用本文:

赵建平,李建武,毕林,程贝贝. 富水区隧道渗流场解析解及合理支护参数[J]. 浙江大学学报(工学版), 2021, 55(11): 2142-2150.

Jian-ping ZHAO,Jian-wu LI,Lin Bi,Bei-bei CHENG. Analytical solution of seepage field and reasonable support parameters of tunnel in water rich area. Journal of ZheJiang University (Engineering Science), 2021, 55(11): 2142-2150.

链接本文:

https://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2021.11.015 或 https://www.zjujournals.com/eng/CN/Y2021/V55/I11/2142

图 1 隧道渗流场计算模型

图 2 点源和点汇位置关系

图 3 焦点为z1、z2的双极坐标系

图 4 计算模型中边界处的等势线

图 5 隧道埋深100 m时FLAC3D模型

表 1 FLAC3D模型中结构几何参数和渗透系数

表 2 FLAC3D模拟结果中拱顶拱底的水头差

图 6 隧道埋深对初期支护外水压力PC的影响

图 7 初期支护渗透系数对初期支护外水压力的影响

图 8 初期支护外水头和初期支护厚度的关系

图 9 渗水量与初期支护厚度的关系

图 10 水头差与初期支护厚度的关系

图 11 初期支护外水头和初期支护渗透系数的关系

图 12 渗水量和初期支护渗透系数的关系

图 13 水头差和初期支护渗透系数的关系

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